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Literature DB >> 16218872

Novel bacterial molybdenum and tungsten enzymes: three-dimensional structure, spectroscopy, and reaction mechanism.

Matthias Boll¹, Bernhard Schink, Albrecht Messerschmidt, Peter M H Kroneck.

Abstract

The molybdenum enzymes 4-hydroxybenzoyl-CoA reductase and pyrogallol-phloroglucinol transhydroxylase and the tungsten enzyme acetylene hydratase catalyze reductive dehydroxylation reactions, i.e., transhydroxylation between phenolic residues and the addition of water to a triple bond. Such activities are unusual for this class of enzymes, which carry either a mononuclear Mo or W center. Crystallization and subsequent structural analysis by high-resolution X-ray crystallography has helped to resolve the reaction centers of these enzymes to a degree that allows us to understand the interaction of the enzyme and the respective substrate(s) in detail, and to develop a concept for the respective reaction mechanism, at least in two cases.

Entities: Chemical

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Year: 2005 PMID： 16218872 DOI： 10.1515/BC.2005.116

Source DB: PubMed Journal: Biol Chem ISSN： 1431-6730 Impact factor: 3.915

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Cited

6 in total

1. Tungsten and molybdenum regulation of formate dehydrogenase expression in Desulfovibrio vulgaris Hildenborough.

Authors: Sofia M da Silva; Catarina Pimentel; Filipa M A Valente; Claudina Rodrigues-Pousada; Inês A C Pereira
Journal: J Bacteriol Date: 2011-04-15 Impact factor: 3.490

2. Why is the molybdenum-substituted tungsten-dependent formaldehyde ferredoxin oxidoreductase not active? A quantum chemical study.

Authors: Rong-Zhen Liao
Journal: J Biol Inorg Chem Date: 2012-11-25 Impact factor: 3.358

Novel bacterial molybdenum and tungsten enzymes: three-dimensional structure, spectroscopy, and reaction mechanism.

1. Tungsten and molybdenum regulation of formate dehydrogenase expression in Desulfovibrio vulgaris Hildenborough.

2. Why is the molybdenum-substituted tungsten-dependent formaldehyde ferredoxin oxidoreductase not active? A quantum chemical study.

3. Mechanism of tungsten-dependent acetylene hydratase from quantum chemical calculations.

4. Genes, enzymes, and regulation of para-cresol metabolism in Geobacter metallireducens.

5. Is the tungsten(IV) complex (NEt₄)₂[WO(mnt)₂] a functional analogue of acetylene hydratase?

6. Redox chemistry of molybdenum in natural waters and its involvement in biological evolution.

Novel bacterial molybdenum and tungsten enzymes: three-dimensional structure, spectroscopy, and reaction mechanism.

1. Tungsten and molybdenum regulation of formate dehydrogenase expression in Desulfovibrio vulgaris Hildenborough.

2. Why is the molybdenum-substituted tungsten-dependent formaldehyde ferredoxin oxidoreductase not active? A quantum chemical study.

3. Mechanism of tungsten-dependent acetylene hydratase from quantum chemical calculations.

4. Genes, enzymes, and regulation of para-cresol metabolism in Geobacter metallireducens.

5. Is the tungsten(IV) complex (NEt4)2[WO(mnt)2] a functional analogue of acetylene hydratase?

6. Redox chemistry of molybdenum in natural waters and its involvement in biological evolution.

5. Is the tungsten(IV) complex (NEt₄)₂[WO(mnt)₂] a functional analogue of acetylene hydratase?